Regularity and singularity in solutions of the three-dimensional Navier-Stokes equations

Details Regularity and singularity in solutions of the three-dimensional Navier-Stokes equations Regularity and singularity in solutions of the three-dimensional Navier-Stokes equations

2009-05-04

arxiv.org/abs/0905.0344v3

Nonlinear Sciences

Chaotic Dynamics

3 figures and 1 table

Scientific paper

Higher moments of the vorticity field $\Omega_{m}(t)$ in the form of $L^{2m}$-norms ($1 \leq m < \infty$) are used to explore the regularity problem for solutions of the three-dimensional incompressible Navier-Stokes equations on the domain $[0, L]^{3}_{per}$. It is found that the set of quantities $$ D_{m}(t) = \Omega_{m}^{\alpha_{m}} ,\qquad\qquad\alpha_{m} = \frac{2m}{4m-3}, $$ provide a natural scaling in the problem resulting in a bounded set of time averages $_{T}$ on a finite interval of time $[0, T]$. The behaviour of $D_{m+1}/D_{m}$ is studied on what are called `good' and `bad' intervals of $[0, T]$ which are interspersed with junction points (neutral) $\tau_{i}$. For large but finite values of $m$ with large initial data \big($\Omega_{m}(0) \leq \varpi_{0}O(\Gr^{4})$\big), it is found that there is an upper bound $$ \Omega_{m} \leq c_{av}^{2}\varpi_{0}\Gr^{4} ,\qquad\varpi_{0} = \nu L^{-2}, $$ which is punctured by infinitesimal gaps or windows in the vertical walls between the good/bad intervals through which solutions may escape. While this result is consistent with that of Leray \cite{Leray} and Scheffer \cite{Scheff76}, this estimate for $\Omega_{m}$ corresponds to a length scale well below the validity of the Navier-Stokes equations.

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